HISTOCHEMICAL OBSERVATIONS ON RODS AND CONES IN RETINAS OF VERTEBRATES

Retinas containing varied proportions of rods and cones, including those of frog, Amphiuma, turtle, chick, kitten and monkey, have been studied by histochemical means. In all visual cells ribonucleic acid occurs exclusively in the myoids. These structures also sometimes contain glycogen. The paraboloids, whenever present, contain glycogen and nothing else. The ellipsoids are colored by mitochondrial stains and by sudan black B, and are rich in a mildly acidophilic protein. The outer segments of the rods and cones contain an acidophilic protein and lipids which are characterized by sudanophilia, the Ashbel-Seligman carbonyl reaction, and autofluorescence. The outer segments of the rods also contain a complex carbohydrate and react strongly for protein-bound sulfhydryl groups. The carbohydrate and the sudanophilic lipid are present in the outer segments of immature photoreceptor cells before the onset of vision and are considered to be structural components; the sulfhydryl reaction, on the other hand, occurs only in outer segments of mature rods and may represent opsin. Retinene, the carotenoid component of the visual pigments, is a fatty aldehyde which we have not identified histochemically. Inconstant, faint metachromasia appears between the outer segments of the photoreceptor cells and the processes of the pigmented epithelial cells. The basal cytoplasm of the pigmented epithelium contains acidophilic protein, sulfhydryl groups, ribonucleic acid, lipids demonstrable by their sudanophilia, carbonyl staining, and autofluorescence, and stains for the enzymes acetylcholinesterase and lipase. The ellipsoids and outer segments of the visual cells, and the basal cytoplasm of the pigmented epithelium show similar histochemical reactions, whereas the myoids stain quite differently. Differences in histochemical properties of rods and cones in certain species are described.

[1]  R. Barrnett,et al.  Histochemical demonstration of sulfhydryl and disulfide groups of protein. , 1954, Journal of the National Cancer Institute.

[2]  R. Hubbard THE MOLECULAR WEIGHT OF RHODOPSIN AND THE NATURE OF THE RHODOPSIN-DIGITONIN COMPLEX , 1954, The Journal of general physiology.

[3]  A. Seligman,et al.  HISTOCHEMICAL DEMONSTRATION OF PROTEIN-BOUND AMINO GROUPS , 1954, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[4]  G. Wald,et al.  THE MOLAR EXTINCTION OF RHODOPSIN , 1953, The Journal of general physiology.

[5]  G. Wald,et al.  Cyanopsin, a new pigment of cone vision. , 1953, Science.

[6]  F. Sjöstrand The ultrastructure of the outer segments of rods and cones of the eye as revealed by the electron microscope. , 1953 .

[7]  F. Sjöstrand The ultrastructure of the innersegments of the retinal rods of the guinea pig eye as revealed by electron microscopy. , 1953 .

[8]  R. Barrnett,et al.  The histochemical distribution of protein-bound sulfhydryl groups. , 1953, Journal of the National Cancer Institute.

[9]  G. Wald,et al.  CIS-TRANS ISOMERS OF VITAMIN A AND RETINENE IN THE RHODOPSIN SYSTEM , 1952, The Journal of general physiology.

[10]  R. Barrnett,et al.  Histochemical demonstration of protein-bound sulfhydryl groups. , 1952, Science.

[11]  G. Wald,et al.  THE ROLE OF SULFHYDRYL GROUPS IN THE BLEACHING AND SYNTHESIS OF RHODOPSIN , 1952, The Journal of general physiology.

[12]  R. Lillie Histochemical studies on the retina , 1952, The Anatomical record.

[13]  M. H. Kaplan,et al.  Localization of antigen in tissue cells. VI. The fate of injected foreign proteins in the mouse. , 1951 .

[14]  Willmer En,et al.  Staining properties of rods and cones in the retina of monkeys. , 1950 .

[15]  A. Seligman,et al.  A new reagent for the histochemical demonstration of active carbonyl groups; a new method for staining ketonic steroids. , 1949, Endocrinology.

[16]  G. Wald GALLOXANTHIN, A CAROTENOID FROM THE CHICKEN RETINA , 1948, The Journal of general physiology.

[17]  J. Baker The histochemical recognition of lipine. , 1946, The Quarterly journal of microscopical science.

[18]  E. Dempsey,et al.  Observations on the chemical cytology of the thyroid gland at different functional stages. , 1946, Endocrinology.

[19]  G. Gomori Observations with differential stains on human islets of langerhans. , 1941, The American journal of pathology.

[20]  D. Vail The Anatomy of the Eye and Orbit , 1941, Nature.

[21]  M. McEwan A COMPARISON OF THE RETINA OF THE MORMYRIDS WITH THAT OF VARIOUS OTHER TELEOSTS , 1938 .

[22]  G. Wald,et al.  Carotenoids of the Chicken Retina , 1937, Nature.

[23]  K. O'day A Preliminary Note on the Presence of Double Cones and Oil Droplets in the Retina of Marsupials. , 1936, Journal of anatomy.

[24]  K. Tansley Factors Affecting the Development and Regeneration of Visual Purple in the Mammalian Retina , 1933 .

[25]  F. S. Sjostrand,et al.  The ultrastructure of the outer segments of rods and cones of the eye as revealed by the electron microscope. , 1953, Journal of cellular and comparative physiology.

[26]  A. Seligman,et al.  THE HISTOCHEMICAL LOCALIZATION OF ACETYL-CHOLINESTERASE IN NERVOUS TISSUE , 1953 .

[27]  G. Wald The biochemistry of vision. , 1953, Annual review of biochemistry.

[28]  R. Lillie Ethylenic reaction of ceroid with performic acid and Schiff reagent. , 1952, Stain technology.